// SPDX-License-Identifier: Apache-2.0
// Copyright (C) 2019-2022 Xilinx, Inc.  All rights reserved.
// Copyright (C) 2022 Advanced Micro Devices, Inc. All rights reserved.
#ifndef XRT_CORE_DEVICE_H
#define XRT_CORE_DEVICE_H

#include "config.h"
#include "cuidx_type.h"
#include "error.h"
#include "ishim.h"
#include "query.h"
#include "query_reset.h"
#include "scope_guard.h"
#include "uuid.h"

#include "core/include/xrt.h"
#include "core/include/experimental/xrt_xclbin.h"

#include <cstdint>
#include <vector>
#include <string>
#include <map>
#include <memory>
#include <boost/any.hpp>
#include <boost/property_tree/ptree.hpp>
#include <boost/optional/optional.hpp>

// TODO: don't seem to belong here and definitely not as #defines
#define XILINX_ID  0x10ee
#define ARISTA_ID  0x3475
#define INVALID_ID 0xffff

namespace xrt_core {

using device_collection = std::vector<std::shared_ptr<xrt_core::device>>;

/**
 * class device - interface to support OS agnositic operations on a device
 */
class device : public ishim
{
  // class xclbin_map - container for loaded xclbins
  //
  // Manages xclbins loaded into specific slots
  class xclbin_map
  {
  public:
    using slot_id = uint32_t;

  private:
    std::map<slot_id, xrt::uuid> m_slot2uuid;
    std::map<xrt::uuid, xrt::xclbin> m_xclbins;

  public:
    // Reset the slot -> uuid mapping based on quieried slot info data
    void
    reset(std::map<slot_id, xrt::uuid>&& slot2uuid)
    {
      m_slot2uuid = std::move(slot2uuid);
    }

    // Cache an xclbin
    void
    insert(xrt::xclbin xclbin)
    {
      m_xclbins[xclbin.get_uuid()] = std::move(xclbin);
    }

    // Get an xclbin with specified uuid
    const xrt::xclbin&
    get(const xrt::uuid& uuid) const
    {
      auto itr = m_xclbins.find(uuid);
      if (itr == m_xclbins.end())
        throw error("No xclbin with uuid '" + uuid.to_string() + "'");

      return (*itr).second;
    }

    // Get the xclbin stored in specified slot
    // It is an error if the xclbin has not been explicitly loaded.
    const xrt::xclbin&
    get(slot_id slot) const
    {
      auto itr = m_slot2uuid.find(slot);
      if (itr == m_slot2uuid.end())
        throw error("No xclbin in slot '" + std::to_string(slot) + "'");

      return get((*itr).second);
    }

    // Return slot indices sorted
    std::vector<slot_id>
    get_slots(const xrt::uuid& uuid) const
    {
      std::vector<slot_id> slots;
      for (auto& su : m_slot2uuid)
        if (su.second == uuid)
          slots.push_back(su.first);

      std::sort(slots.begin(), slots.end());
      return slots;
    }
  };

public:
  // device index type
  using id_type = unsigned int;
  using slot_id = xclbin_map::slot_id;
  using handle_type = xclDeviceHandle;
  using memory_type = xrt::xclbin::mem::memory_type;

public:
  XRT_CORE_COMMON_EXPORT
  device(id_type device_id);

  XRT_CORE_COMMON_EXPORT
  virtual ~device();

  device(const device&) = delete;
  device& operator=(const device&) = delete;

  /**
   * get_device_id() - Get device index
   */
  id_type
  get_device_id() const
  {
    return m_device_id;
  }

  /**
   * get_device_handle() - Get underlying shim device handle
   */
  virtual handle_type
  get_device_handle() const = 0;

  /**
   * get_mgmt_handle() - Get underlying mgmt device handle if any
   *
   * Return: Handle for mgmt device, or XRT_NULL_HANDLE if undefined
   *
   * Currently windows is only OS that differentiates mgmt handle from
   * device handle.  As such this function really doesn't belong here
   * in base class, but it avoids dynamic_cast from base device to
   * concrete device for query calls.
   */
  virtual handle_type
  get_mgmt_handle() const
  {
    return XRT_NULL_HANDLE;
  }

  /**
   * get_user_handle() - Get underlying user device handle if any
   *
   * Return: Handle for user device.
   *
   * User the device is default the same as device handle.
   */
  virtual handle_type
  get_user_handle() const
  {
    return get_device_handle();
  }

  /**
   * is_userpf_device() - Is this device a userpf
   *
   * Return: true if this device is associate with userpf, false otherwise
   *
   * This currently makes sense only on Linux.  It used by
   * device_linux to direct sysfs calls to the proper pf.  As such
   * this function really doesn't belong here in base class, but it
   * avoids dynamic_cast from base device to concrete device for
   * query calls.
   */
  virtual bool
  is_userpf() const
  {
    return false;
  }

  /**
   * is_nodma() - Is this device a NODMA device
   *
   * Return: true if device is nodma
   *
   * This function is added to avoid sysfs access in
   * critical path.
   */
  XRT_CORE_COMMON_EXPORT
  bool
  is_nodma() const;

 private:
  // Private look up function for concrete query::request
  virtual const query::request&
  lookup_query(query::key_type query_key) const = 0;

public:
  /**
   * query() - Query the device for specific property
   *
   * @QueryRequestType: Template parameter identifying a specific query request
   * Return: QueryRequestType::result_type value wrapped as boost::any.
   */
  template <typename QueryRequestType>
  boost::any
  query() const
  {
    auto& qr = lookup_query(QueryRequestType::key);
    return qr.get(this);
  }

  /**
   * query() - Query the device for specific property
   *
   * @QueryRequestType: Template parameter identifying a specific query request
   * @args:  Variadic arguments forwarded the QueryRequestType
   * Return: QueryRequestType::result_type value wrapped as boost::any.
   */
  template <typename QueryRequestType, typename ...Args>
  boost::any
  query(Args&&... args) const
  {
    auto& qr = lookup_query(QueryRequestType::key);
    return qr.get(this, std::forward<Args>(args)...);
  }

  /**
   * update() - Update a given property for this device
   *
   * @QueryRequestType: Template parameter identifying a specific query request
   * @args:  Variadic arguments forwarded to the QueryRequestType
   */
  template <typename QueryRequestType, typename ...Args>
  void
  update(Args&&... args) const
  {
    auto& qr = lookup_query(QueryRequestType::key);
    return qr.put(this, std::forward<Args>(args)...);
  }

  // record_xclbin() - Registers an xclbin with the device
  //
  // This function records/registers an xclbin without loading it onto
  // hardware resource.  Once registered, a hardware context can be
  // created once or more times, which will assign the xclbin to
  // hardware resources.
  //
  // Naming of "record" as in record_xclbin is to compensate for
  // virtual register_xclbin which is defined by shim.
  XRT_CORE_COMMON_EXPORT
  void
  record_xclbin(const xrt::xclbin& xclbin);

  /**
   * load_xclbin() - Load an xclbin object on this device
   *
   * This function loads argument xclbin.  It is the entry point for
   * xrt::device::load_xclbin() APIs variants.  The function keeps a
   * reference to the argument xclbin.
   */
  XRT_CORE_COMMON_EXPORT
  void
  load_xclbin(const xrt::xclbin& xclbin);

  XRT_CORE_COMMON_EXPORT
  void
  load_xclbin(const uuid& xclbin_id);

  // Get the currently loaded xclbin
  // Throws if xclbin uuid does match
  XRT_CORE_COMMON_EXPORT
  xrt::xclbin
  get_xclbin(const uuid& xclbin_id) const;

  // Get all slots that match xclbin uuid
  std::vector<xclbin_map::slot_id>
  get_slots(const uuid& xclbin_id) const
  {
    return m_xclbins.get_slots(xclbin_id);
  }

  // Updates cached xclbin data based in data queried from driver
  void
  update_xclbin_info();

  // Updates cached compute unit data based in data queried from driver
  void
  update_cu_info();

  // This function is called after an axlf has been succesfully loaded
  // by the shim layer API xclLoadXclBin().  Since xclLoadXclBin() can
  // be called explicitly by end-user code, the callback is necessary
  // in order to register current axlf with the device object
  XRT_CORE_COMMON_EXPORT
  void
  register_axlf(const axlf*);

  /**
   * get_xclbin_uuid() - Get uuid of currently loaded xclbin
   */
  XRT_CORE_COMMON_EXPORT
  uuid
  get_xclbin_uuid() const;

  /**
   * get_axlf_section() - Get section from currently loaded axlf
   *
   * xclbin_id:  Check that xclbin_id matches currently cached
   * Return:     Pair of section data and size in bytes
   *
   * This function provides access to meta data sections that are
   * from currently loaded xclbin.  The returned section is from when the
   * xclbin was loaded by this process.  The function cannot be used
   * unless this process loaded the xclbin.
   *
   * The function returns {nullptr, 0} if section is not cached.
   *
   * Same behavior as other get_axlf_section()
   */
  XRT_CORE_COMMON_EXPORT
  std::pair<const char*, size_t>
  get_axlf_section(axlf_section_kind section, const uuid& xclbin_id = uuid()) const;

  std::pair<const char*, size_t>
  get_axlf_section_or_error(axlf_section_kind section, const uuid& xclbin_id = uuid()) const;

  template<typename SectionType>
  SectionType
  get_axlf_section(axlf_section_kind section, const uuid& xclbin_id = uuid()) const
  {
    return reinterpret_cast<SectionType>(get_axlf_section(section, xclbin_id).first);
  }

  template<typename SectionType>
  SectionType
  get_axlf_section_or_error(axlf_section_kind section, const uuid& xclbin_id = uuid()) const
  {
    return reinterpret_cast<SectionType>(get_axlf_section_or_error(section, xclbin_id).first);
  }

  /**
   * get_axlf_sections() - Get sections from currently loaded axlf
   *
   * xclbin_id:  Check that xclbin_id matches currently cached
   * Return:     Vectors of Pair of section data and size in bytes
   *
   * This function provides access to meta data sections that are
   * from currently loaded xclbin.  The returned sections are from when the
   * xclbin was loaded by this process.  The function cannot be used
   * unless this process loaded the xclbin.
   *
   * The function returns {nullptr, 0} if section is not cached.
   *
   * Same behavior as other get_axlf_sections()
   */
  XRT_CORE_COMMON_EXPORT
  std::vector<std::pair<const char*, size_t>>
  get_axlf_sections(axlf_section_kind section, const uuid& xclbin_id = uuid()) const;

  std::vector<std::pair<const char*, size_t>>
  get_axlf_sections_or_error(axlf_section_kind section, const uuid& xclbin_id = uuid()) const;

  memory_type
  get_memory_type(size_t memidx) const;

  // get_cus() - Get list cu base addresses sorted by cu indices
  // This is a legacy single slot function.
  // An exception is thrown if called in multi-xclbin flow
  XRT_CORE_COMMON_EXPORT
  const std::vector<uint64_t>&
  get_cus() const;

  // get_cuidx() - Get index of cu identified by name and slot
  //
  // slot:   Slot for CU
  // cuname:  Name of CU
  // Return:  The index of the CU represented as cuidx_type per
  //          defintion in xrt_core::xclbin
  //
  // The index is used when opening a context on this device
  // and it is used to specify the cumask in commands send
  // for execution
  XRT_CORE_COMMON_EXPORT
  cuidx_type
  get_cuidx(slot_id slot, const std::string& cuname) const;

  // get_cuidx() - As const version, but update cu indices if necessary
  XRT_CORE_COMMON_EXPORT
  cuidx_type
  get_cuidx(slot_id slot, const std::string& cuname);

  /**
   * get_ert_slots() - Get number of ERT CQ slots
   *
   * Returns: Pair of number of slots and size of each slot
   */
  XRT_CORE_COMMON_EXPORT
  std::pair<size_t, size_t>
  get_ert_slots(const char* xml, size_t xml_size) const;

  XRT_CORE_COMMON_EXPORT
  std::pair<size_t, size_t>
  get_ert_slots(const uuid& xclbin_id = uuid()) const;

  // Move all these 'pt' functions out the class interface
  virtual void get_info(boost::property_tree::ptree&) const {}
  /**
   * read() - maps pcie bar and copy bytes word (32bit) by word
   * THIS FUNCTION DOES NOT BELONG HERE
   */
  virtual void read(uint64_t, void*, uint64_t) const {}
  /**
   * write() - maps pcie bar and copy bytes word (32bit) by word
   * THIS FUNCTION DOES NOT BELONG HERE
   */
  virtual void write(uint64_t, const void*, uint64_t) const {}

  virtual void reset(query::reset_type&) const {}

  /**
   * xclmgmt_load_xclbin() - loads the xclbin through the mgmt pf
   */
  virtual void xclmgmt_load_xclbin(const char*) const{}

  /**
   * shutdown_device() - hot reset the device, stop ongoing transactions
   */
  virtual void device_shutdown() const {}

  /**
   * online_device() - bring back the device online
   */
  virtual void device_online() const {}

  /**
   * open() - opens a device with an fd which can be used for non pcie read/write
   * xospiversal and xspi use this
   */
  virtual int
  open(const std::string&, int) const
  { throw std::runtime_error("Not implemented"); }

  /**
   * close() - close the fd
   */
  virtual void
  close(int) const
  { throw std::runtime_error("Not implemented"); }

  /**
   * file_open() - Opens a scoped fd
   * THIS FUNCTION DOES NOT BELONG HERE
   */
  scope_value_guard<int, std::function<void()>>
  file_open(const std::string& subdev, int flag) const
  {
    auto fd = open(subdev, flag);
    return {fd, std::bind(&device::close, this, fd)};
  }

 private:
  id_type m_device_id;
  mutable boost::optional<bool> m_nodma = boost::none;

  using name2idx_type = std::map<std::string, cuidx_type>;
  std::map<slot_id, name2idx_type> m_cu2idx;  // slot -> cu name mapping to cuidx
  std::vector<uint64_t> m_cus;                // cu base addresses in expeced sort order
  xrt::xclbin m_xclbin;                       // currently loaded xclbin  (single-slot, default)
  xclbin_map m_xclbins;                       // currently loaded xclbins (multi-slot)
};

/**
 * device_query() - Retrive query request data
 *
 * @device : device to retrieve data for
 * Return: value per QueryRequestType
 */

template <typename QueryRequestType>
inline typename QueryRequestType::result_type
device_query(const device* device)
{
  auto ret = device->query<QueryRequestType>();
  return boost::any_cast<typename QueryRequestType::result_type>(ret);
}

template <typename QueryRequestType, typename ...Args>
inline typename QueryRequestType::result_type
device_query(const device* device, Args&&... args)
{
  auto ret = device->query<QueryRequestType>(std::forward<Args>(args)...);
  return boost::any_cast<typename QueryRequestType::result_type>(ret);
}

template <typename QueryRequestType>
inline typename QueryRequestType::result_type
device_query(const std::shared_ptr<device>& device)
{
  return device_query<QueryRequestType>(device.get());
}

template <typename QueryRequestType, typename ...Args>
inline typename QueryRequestType::result_type
device_query(const std::shared_ptr<device>& device, Args&&... args)
{
  auto ret = device->query<QueryRequestType>(std::forward<Args>(args)...);
  return boost::any_cast<typename QueryRequestType::result_type>(ret);
}

template <typename QueryRequestType>
inline typename QueryRequestType::result_type
device_query_default(const device* device, const typename QueryRequestType::result_type& default_value)
{
  try {
    return device_query<QueryRequestType>(device);
  }
  catch (const query::no_such_key&) {
    return default_value;
  }
  catch (const query::sysfs_error&) {
    return default_value;
  }
}

template <typename QueryRequestType>
inline typename QueryRequestType::result_type
device_query_default(const std::shared_ptr<device>& device, const typename QueryRequestType::result_type& default_value)
{
  try {
    return device_query<QueryRequestType>(device);
  }
  catch (const query::no_such_key&) {
    return default_value;
  }
  catch (const query::sysfs_error&) {
    return default_value;
  }
}

template <typename QueryRequestType, typename ...Args>
inline void
device_update(const device* device, Args&&... args)
{
  device->update<QueryRequestType>(std::forward<Args>(args)...);
}

template <typename QueryRequestType>
struct ptree_updater
{
  template <typename ValueType>
  static void
  put(const ValueType& value, boost::property_tree::ptree& pt)
  {
    pt.put(QueryRequestType::name(), QueryRequestType::to_string(value));
  }

  static void
  put(const std::vector<std::string>& value, boost::property_tree::ptree& pt)
  {
    boost::property_tree::ptree pt_array;
    for (auto& str : value) {
      boost::property_tree::ptree pt_item;
      pt_item.put("", QueryRequestType::to_string(str));
      pt_array.push_back(std::make_pair("", pt_item));
    }
    pt.add_child(QueryRequestType::name(), pt_array);
  }

  static void
  query_and_put(const device* device, boost::property_tree::ptree& pt)
  {
    try {
      auto value = xrt_core::device_query<QueryRequestType>(device);
      put(value, pt);
    }
    catch (const std::exception& ex) {
      pt.put(QueryRequestType::name(), ex.what());
    }
  }
};

} // xrt_core

#endif
